ライフサイエンスコーパス: conductive hearing loss

1 lso in disorders following noise exposure or conductive hearing loss.

2 with effusion (COME) is the leading cause of conductive hearing loss.

3 loss in addition to the previously described conductive hearing loss.

4 excessive mucus contributes significantly to conductive hearing loss.

5 al disability), and ear anomalies, including conductive hearing loss.

6 e symptoms, including facial deformities and conductive hearing loss.

7 eletal defects and synostoses, which include conductive hearing loss.

8 e mobility of the ossicular chain and causes conductive hearing loss.

9 airments can arise from exposure to noise or conductive hearing loss.

10 e of the auditory brainstem during and after conductive hearing loss.

11 mice of both sexes after noise exposure and conductive hearing loss.

12 od bacterial infection, and leading cause of conductive hearing loss.

13 of the stapedial footplate and an associated conductive hearing loss.

14 f tinnitus (16.1% vs. 12.7%, p < 0.001), non-conductive hearing loss (9.2% vs. 6.8%, p < 0.001), and

15 clerosis is one of the most common causes of conductive hearing loss, affecting 0.3% of the populatio

16 l development, the features of which include conductive hearing loss and cleft palate.

17 al development the features of which include conductive hearing loss and cleft palate.

18 l development, the features of which include conductive hearing loss and cleft palate.

19 n with chronic OM or recurrent OM often have conductive hearing loss and communication difficulties a

20 tis media with effusion (OME) often leads to conductive hearing loss and is a common feature of a num

21 second most prevalent form of hearing loss, conductive hearing loss and its effects on central synap

22 onal findings, including mental retardation, conductive hearing loss, and failure to thrive.

23 ions in joint range of motion, low-frequency conductive hearing loss, and functional oral deficits.

24 ave higher prevalence rates of tinnitus, non-conductive hearing loss, and vertigo than comparison pat

25 The adjusted ORs for tinnitus, non-conductive hearing loss, and vertigo, respectively, were

26 In the auditory system, conductive hearing loss associated with childhood ear in

27 uired data from mice experiencing unilateral conductive hearing loss at different ages.

28 as performed and revealed moderate to severe conductive hearing loss bilaterally, with a mixed compon

29 rmed otosclerosis; the remaining nine have a conductive hearing loss but have not undergone correctiv

30 ,000 ears from patients with normal hearing, conductive hearing loss (CHL) and a variety of sensorine

31 Decreased activity can result from conductive hearing loss (CHL) associated with otitis med

32 ere we induce a brief, reversible unilateral conductive hearing loss (CHL) at several experimentally

33 We induced conductive hearing loss (CHL) in developing gerbils, rea

34 ore, we explored the effect of developmental conductive hearing loss (CHL) in gerbils on MMR characte

35 Conductive hearing loss (CHL) is one of the most common

36 Bilateral conductive hearing loss (CHL) of approximately 30 dB was

37 WFA] and Cat-315) and the effect of neonatal conductive hearing loss (CHL) on their development.

38 o arise in animals raised with developmental conductive hearing loss (CHL), a manipulation that induc

39 NHL etiologies, but relatively little in the conductive hearing loss group.

40 ow in young adult rats that 10 d of monaural conductive hearing loss (i.e., earplugging) leads to hea

41 d bacterial infection and the major cause of conductive hearing loss in children.

42 h diseases, has been shown to directly cause conductive hearing loss in COME and airway obstruction i

43 The conductive hearing loss in Nog(+/-) mice is caused by an

44 childhood infection and the leading cause of conductive hearing loss in the United States.

45 Two forms of hearing loss were examined: conductive hearing loss in which the cochleae are not da

46 head and ears, and to compensate for natural conductive hearing losses, including those associated wi

47 Sound deprivation by conductive hearing loss increases hearing thresholds, bu

48 Here, we show that 10 d of monaural conductive hearing loss leads to an increase in hearing

49 Conductive hearing loss occurs when sound waves are not

50 findings suggest that (1) a broader range of conductive hearing-loss phenotypes are associated with N

51 However, a conductive hearing loss (plugging 1 ear) did not cause a

52 heterozygotes show renal abnormalities and a conductive hearing loss similar to BOR syndrome, whereas

53 The prevalence of conductive hearing loss was 2.9% (n = 195), and the prev

54 (3) NOG alterations should be considered in conductive hearing loss with subtle clinical and skeleta